Cross-modal effects of value on perceptual acuity and stimulus encoding

Pooresmaeili, Arezoo; FitzGerald, Thomas H. B.; Bach, Dominik R.; Toelch, Ulf; Ostendorf, Florian; Dolan, Raymond J.

doi:10.1073/pnas.1408873111

Cited by 39 publications

(80 citation statements)

References 46 publications

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“…Once it was no longer provided, motivational engagement would return to a normal level, or even to a lower level as performance decreased more from training to posttest for the reward group. This finding was contrary to previous evidence that reward influenced visual perception even when the rewards were no longer delivered (Anderson, 2013;Anderson et al, 2011;Failing & Theeuwes, 2014Pooresmaeili et al, 2014;, even after several days (Della Libera & Chelazzi, 2009). These inconsistent findings might be due to the paradigm differences (the proactive paradigm used in the current study and the reactive paradigm used in the above studies ;Braver, 2012;Failing & Theeuwes, 2018;Pessoa, 2015).…”

Section: Discussioncontrasting

confidence: 99%

“…Because there was no previous study using the same paradigm to examine the same issue, we aimed for a sample size of 50 subjects (25 subjects per group) to be comparable with, or larger than the sample sizes of previous studies that examined the influence of rewards on visual perception (Marx & Einhauser, 2015; Pooresmaeili et al, 2014; Seitz, Kim, & Watanabe, 2009; Xue et al, 2015). Based on the sensitivity analysis using G*Power software (Faul, Erdfelder, Buchner, & Lang, 2009), a sample size of 50 would allow us to detect effects ( f ) larger than 0.26 with our design of within‐between interaction of repeated measures, power = 0.95, alpha = 0.05, number of groups = 2, number of measurements = 2, correlation among measurements = 0.5, and nonsphericity correction = 1.…”

Section: Methodsmentioning

confidence: 99%

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The Bright and Dark Sides of Performance‐Dependent Monetary Rewards: Evidence From Visual Perception Tasks

Qin

Xue

Chen³

et al. 2020

Cognitive Science

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Studies have shown that performance‐dependent monetary rewards facilitate visual perception. However, no study has examined whether such a positive effect is limited to the rewarded task or may be generalized to other tasks. In the current study, two groups of people were asked to perform two visual perception tasks, one being a reward‐relevant task and the other being a reward‐irrelevant task. For the reward‐relevant task, the experimental group received performance‐dependent monetary rewards, whereas the control group did not. For the reward‐irrelevant task, both groups were not rewarded. The two tasks were randomly intermixed trial by trial (Experiment 1) or presented block by block (Experiment 2) or session by session (Experiments 3a, 3b, and 3c). Results showed that performance‐dependent monetary rewards improved participants' performance on the relevant task in all experiments and impaired their performance on the irrelevant task in Experiments 2, 3a, 3b, and 3c. These results suggested that monetary rewards might incur a cost on reward‐irrelevant tasks. Finally, the benefit of monetary rewards disappeared when they were no longer provided during the final session. This is the first study that reveals both the bright and dark sides of the performance‐dependent monetary rewards in visual perception.

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Section: Discussioncontrasting

confidence: 99%

Section: Methodsmentioning

confidence: 99%

The Bright and Dark Sides of Performance‐Dependent Monetary Rewards: Evidence From Visual Perception Tasks

Qin

Xue

Chen³

et al. 2020

Cognitive Science

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“…To our knowledge, two studies used auditory reward-learning to form simple stimulus-reward associations; and tested their impact on visual perception23 and attention24. Pooersmaeili and colleagues23 found that high-reward associated sounds increased visual sensitivity in an orientation discrimination task, while Anderson24 found that high-reward associated sounds interfered with the performance in a visual attention task. These seemingly contradicting results indicate that it is currently unknown how exactly the value representations in auditory domain would affect visual processes.…”

Section: Discussionmentioning

confidence: 99%

Auditory attentional selection is biased by reward cues

Asutay

Västfjäll

2016

Sci Rep

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Auditory attention theories suggest that humans are able to decompose the complex acoustic input into separate auditory streams, which then compete for attentional resources. How this attentional competition is influenced by motivational salience of sounds is, however, not well-understood. Here, we investigated whether a positive motivational value associated with sounds could bias the attentional selection in an auditory detection task. Participants went through a reward-learning period, where correct attentional selection of one stimulus (CS+) lead to higher rewards compared to another stimulus (CS−). We assessed the impact of reward-learning by comparing perceptual sensitivity before and after the learning period, when CS+ and CS− were presented as distractors for a different target. Performance decreased after reward-learning when CS+ was a distractor, while it increased when CS− was a distractor. Thus, the findings show that sounds that were associated with high rewards captures attention involuntarily. Additionally, when successful inhibition of a particular sound (CS−) was associated with high rewards then it became easier to ignore it. The current findings have important implications for the understanding of the organizing principles of auditory perception and provide, for the first time, clear behavioral evidence for reward-dependent attentional learning in the auditory domain in humans.

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“…Among the top-down influences on perception, the effect of reward is particularly important to motivate an agent, facilitate learning, and help the agent to behave adaptively given the limited capacity of both sensory and motor systems. It has been shown that reward acts to modulate selective attention when the subject's performance was directly linked to the monetary reward (Small et al, 2005;Mohanty et al, 2008;Engelmann et al, 2009), even when the monetary reward was no longer task-relevant (Libera and Chelazzi, 2006;Hickey and van Zoest, 2012;Pooresmaeili et al, 2014;Asutay and Västfjäll, 2016;Luque et al, 2017). Rewards may act as guiding signals for learning and optimizing specific attentional operations (Chelazzi et al, 2013a), and not only can reward increase the salience of associated stimuli (Hickey and van Zoest, 2012), but also enhance the suppression of the distractors (Della Libera and Chelazzi, 2009), change the priority maps of space (Chelazzi et al, 2014), and reduce the intrinsic neural noise in the motor and cognitive control (Manohar et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Cross-modal integration of reward value during oculomotor planning

Cheng

Saglam

André

et al. 2019

Preprint

Self Cite

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Reward value guides goal-directed behavior and modulates early sensory processing. Rewarding stimuli are often multisensory but it is not known how reward value is combined across sensory modalities. Here we show that the integration of reward value critically depends on whether the distinct sensory inputs are perceived to emanate from the same multisensory object. We systematically manipulated the congruency in monetary reward values and the relative spatial positions of co-occurring auditory and visual stimuli that served as bimodal distractors during an oculomotor task. The amount of interference induced by the distractors was used as an indicator of their perceptual salience. Our results across two experiments show that when reward value is linked to each modality separately, the value congruence between vision and audition determines the combined salience of the bimodal distractors. However, reward value of vision wins over the value of audition if visual and auditory stimuli have been experienced as belonging to the same audiovisual object prior to the learning of the reward values. The perceived spatial alignment of auditory and visual stimuli is a prerequisite for the integration of their reward values, as no effect of reward value was observed when the two modalities were perceived to be misaligned. These results show that in a task that highly relies on the processing of visual spatial information, the reward values from multiple sensory modalities are integrated with each other, each with their respective weights. This weighting depends on the congruency in reward values, exposure history, and spatial co-localization.

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Cross-modal effects of value on perceptual acuity and stimulus encoding

Cited by 39 publications

References 46 publications

The Bright and Dark Sides of Performance‐Dependent Monetary Rewards: Evidence From Visual Perception Tasks

The Bright and Dark Sides of Performance‐Dependent Monetary Rewards: Evidence From Visual Perception Tasks

Auditory attentional selection is biased by reward cues

Cross-modal integration of reward value during oculomotor planning

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